/* SPDX-License-Identifier: GPL-2.0 */ #ifndef __ASM_ARC_ENTRY_ARCV2_H #define __ASM_ARC_ENTRY_ARCV2_H #include #include #include /* For THREAD_SIZE */ /* * Interrupt/Exception stack layout (pt_regs) for ARCv2 * (End of struct aligned to end of page [unless nested]) * * INTERRUPT EXCEPTION * * manual --------------------- manual * | orig_r0 | * | event/ECR | * | bta | * | user_r25 | * | gp | * | fp | * | sp | * | r12 | * | r30 | * | r58 | * | r59 | * hw autosave --------------------- * optional | r0 | * | r1 | * ~ ~ * | r9 | * | r10 | * | r11 | * | blink | * | lpe | * | lps | * | lpc | * | ei base | * | ldi base | * | jli base | * --------------------- * hw autosave | pc / eret | * mandatory | stat32 / erstatus | * --------------------- */ /*------------------------------------------------------------------------*/ .macro INTERRUPT_PROLOGUE ; (A) Before jumping to Interrupt Vector, hardware micro-ops did following: ; 1. SP auto-switched to kernel mode stack ; 2. STATUS32.Z flag set if in U mode at time of interrupt (U:1,K:0) ; 3. Auto save: (mandatory) Push PC and STAT32 on stack ; hardware does even if CONFIG_ARC_IRQ_NO_AUTOSAVE ; 4. Auto save: (optional) r0-r11, blink, LPE,LPS,LPC, JLI,LDI,EI ; ; (B) Manually saved some regs: r12,r25,r30, sp,fp,gp, ACCL pair #ifdef CONFIG_ARC_IRQ_NO_AUTOSAVE ; carve pt_regs on stack (case #3), PC/STAT32 already on stack sub sp, sp, SZ_PT_REGS - 8 __SAVE_REGFILE_HARD #else ; carve pt_regs on stack (case #4), which grew partially already sub sp, sp, PT_r0 #endif __SAVE_REGFILE_SOFT .endm /*------------------------------------------------------------------------*/ .macro EXCEPTION_PROLOGUE ; (A) Before jumping to Exception Vector, hardware micro-ops did following: ; 1. SP auto-switched to kernel mode stack ; 2. STATUS32.Z flag set if in U mode at time of exception (U:1,K:0) ; ; (B) Manually save the complete reg file below sub sp, sp, SZ_PT_REGS ; carve pt_regs ; _HARD saves r10 clobbered by _SOFT as scratch hence comes first __SAVE_REGFILE_HARD __SAVE_REGFILE_SOFT st r0, [sp] ; orig_r0 lr r10, [eret] lr r11, [erstatus] ST2 r10, r11, PT_ret lr r10, [ecr] lr r11, [erbta] ST2 r10, r11, PT_event ; OUTPUT: r10 has ECR expected by EV_Trap .endm /*------------------------------------------------------------------------ * This macro saves the registers manually which would normally be autosaved * by hardware on taken interrupts. It is used by * - exception handlers (which don't have autosave) * - interrupt autosave disabled due to CONFIG_ARC_IRQ_NO_AUTOSAVE */ .macro __SAVE_REGFILE_HARD ST2 r0, r1, PT_r0 ST2 r2, r3, PT_r2 ST2 r4, r5, PT_r4 ST2 r6, r7, PT_r6 ST2 r8, r9, PT_r8 ST2 r10, r11, PT_r10 st blink, [sp, PT_blink] lr r10, [lp_end] lr r11, [lp_start] ST2 r10, r11, PT_lpe st lp_count, [sp, PT_lpc] ; skip JLI, LDI, EI for now .endm /*------------------------------------------------------------------------ * This macros saves a bunch of other registers which can't be autosaved for * various reasons: * - r12: the last caller saved scratch reg since hardware saves in pairs so r0-r11 * - r30: free reg, used by gcc as scratch * - ACCL/ACCH pair when they exist */ .macro __SAVE_REGFILE_SOFT ST2 gp, fp, PT_r26 ; gp (r26), fp (r27) st r12, [sp, PT_sp + 4] st r30, [sp, PT_sp + 8] ; Saving pt_regs->sp correctly requires some extra work due to the way ; Auto stack switch works ; - U mode: retrieve it from AUX_USER_SP ; - K mode: add the offset from current SP where H/w starts auto push ; ; 1. Utilize the fact that Z bit is set if Intr taken in U mode ; 2. Upon entry SP is always saved (for any inspection, unwinding etc), ; but on return, restored only if U mode lr r10, [AUX_USER_SP] ; U mode SP ; ISA requires ADD.nz to have same dest and src reg operands mov.nz r10, sp add.nz r10, r10, SZ_PT_REGS ; K mode SP st r10, [sp, PT_sp] ; SP (pt_regs->sp) #ifdef CONFIG_ARC_CURR_IN_REG st r25, [sp, PT_user_r25] GET_CURR_TASK_ON_CPU r25 #endif #ifdef CONFIG_ARC_HAS_ACCL_REGS ST2 r58, r59, PT_sp + 12 #endif .endm /*------------------------------------------------------------------------*/ .macro __RESTORE_REGFILE_SOFT LD2 gp, fp, PT_r26 ; gp (r26), fp (r27) ld r12, [sp, PT_sp + 4] ld r30, [sp, PT_sp + 8] ; Restore SP (into AUX_USER_SP) only if returning to U mode ; - for K mode, it will be implicitly restored as stack is unwound ; - Z flag set on K is inverse of what hardware does on interrupt entry ; but that doesn't really matter bz 1f ld r10, [sp, PT_sp] ; SP (pt_regs->sp) sr r10, [AUX_USER_SP] 1: #ifdef CONFIG_ARC_CURR_IN_REG ld r25, [sp, PT_user_r25] #endif #ifdef CONFIG_ARC_HAS_ACCL_REGS LD2 r58, r59, PT_sp + 12 #endif .endm /*------------------------------------------------------------------------*/ .macro __RESTORE_REGFILE_HARD ld blink, [sp, PT_blink] LD2 r10, r11, PT_lpe sr r10, [lp_end] sr r11, [lp_start] ld r10, [sp, PT_lpc] ; lp_count can't be target of LD mov lp_count, r10 LD2 r0, r1, PT_r0 LD2 r2, r3, PT_r2 LD2 r4, r5, PT_r4 LD2 r6, r7, PT_r6 LD2 r8, r9, PT_r8 LD2 r10, r11, PT_r10 .endm /*------------------------------------------------------------------------*/ .macro INTERRUPT_EPILOGUE ; INPUT: r0 has STAT32 of calling context ; INPUT: Z flag set if returning to K mode ; _SOFT clobbers r10 restored by _HARD hence the order __RESTORE_REGFILE_SOFT #ifdef CONFIG_ARC_IRQ_NO_AUTOSAVE __RESTORE_REGFILE_HARD add sp, sp, SZ_PT_REGS - 8 #else add sp, sp, PT_r0 #endif .endm /*------------------------------------------------------------------------*/ .macro EXCEPTION_EPILOGUE ; INPUT: r0 has STAT32 of calling context btst r0, STATUS_U_BIT ; Z flag set if K, used in restoring SP ld r10, [sp, PT_event + 4] sr r10, [erbta] LD2 r10, r11, PT_ret sr r10, [eret] sr r11, [erstatus] __RESTORE_REGFILE_SOFT __RESTORE_REGFILE_HARD add sp, sp, SZ_PT_REGS .endm .macro FAKE_RET_FROM_EXCPN lr r9, [status32] bic r9, r9, (STATUS_U_MASK|STATUS_DE_MASK|STATUS_AE_MASK) or r9, r9, STATUS_IE_MASK kflag r9 .endm /* Get thread_info of "current" tsk */ .macro GET_CURR_THR_INFO_FROM_SP reg bmskn \reg, sp, THREAD_SHIFT - 1 .endm /* Get CPU-ID of this core */ .macro GET_CPU_ID reg lr \reg, [identity] xbfu \reg, \reg, 0xE8 /* 00111 01000 */ /* M = 8-1 N = 8 */ .endm #endif